PbO-containing sealing glass with higher oxide of a cation to avoid PbO reduction

ABSTRACT

A sealing glass and a sealing glass paste for sealing the face plate and funnel portion of a color television tube wherein PbO-containing sealing glass frit contains an effective amount of a powder, such as Pb 3  O 4  powder, which powder prevents the reduction of PbO to Pb metal during the sealing process, which reduction would otherwise result in a dielectric breakdown in the seal. Among other powders similarly found to be effective for the purpose of prevention of reduction of PbO in a PbO-containing sealing glass frit are certain other higher oxides of a cation which are selected from a group including, in addition to Pb 3  O 4 , such higher oxides of a cation as BaO 2 , CrO 3 , MnO 2 , Mn 2  O 3 , Fe 2  O 3 , Fe 3  O 4 , CuO, Cu 2  O, Tl 2  O 3 , Sb 2  O 5 , TeO 2 , Ta 2  O 5 , Nb 2  O 5 , V 2  O 5 , CeO 2 , Bi 2  O 3  and As 2  O 5 . A sealing glass paste consisting essentially of a PbO-- B 2  O 3  --ZnO sealing glass frit and containing an effective amount of said powder, based upon the weight of the frit, together with hydroxypropyl cellulose binder for the frit and a solvent for the binder. A method for sealing the face plate of a color television tube to its funnel portion with a PbO-containing solder glass wherein the reduction of PbO to metallic lead during the sealing step is obviated by the addition of a sufficient amount of Pb 3  O 4 , BaO 2  or other of the mentioned higher oxide of a cation powder in the solder glass and paste made therewith, which Pb 3  O 4 , BaO 2  or other of the mentioned higher oxides of a cation will be slowly reduced to a lower oxide in a reducing atmosphere during the sealing of the television tube components. A method for increasing the dielectric properties of a PbO-containing sealing glass paste and the devitrified seal made therefrom, which seals the face plate to the funnel of a color television tube, to a value greater than that provided by the solder glass, per se, by incorporating in the solder glass and the solder glass paste made therefrom a small but sufficient amount of Pb 3  O 4 , BaO 2  or other of the mentioned higher oxide of a cation powders to accomplish this purpose. A vehicle for a glass frit comprises hydroxypropyl cellulose as a binder and a solvent for said binder.

This application is a continuation-in-part of application Ser. No. 246,316, filed Apr. 21, 1972 now abandoned, and a continuation-in-part of application Ser. No. 511,202, filed Oct. 1, 1974, which in turn is a continuation of application Ser. No. 246,316. The entire disclosures of Ser. No. 246,316 and 511,202 (filed Oct. 1, 1974) are relied upon and incorporated herein by reference.

PbO-containing sealing glasses, and particularly PbO--B₂ O₃ --ZnO sealing glasses, are most commonly used commercially to seal the glass face plate to the glass funnel of a color television tube. Such sealing glasses have the property of melting and flowing at low temperatures, i.e. usually below 500°C and preferably below 475°C, which facilitates the wetting of the glass surfaces to be sealed. Furthermore, the devitrified or crystallized seal which is formed has a fiber softening point which is higher than that of the original sealing glass. Because of the ready reduction of the PbO in the sealing glass to metallic lead when the sealing is done in a reducing atmosphere or in the presence of deleterious organic vapors, special precautions must be taken by television tube manufacturers to prevent any such reduction of PbO and the dielectric breakdown of the seal caused thereby.

Before the glass face plate of a color television tube can be sealed to the glass funnel portion, both members must first undergo a number of different processing steps. The face plate and the metal grid or perforated mask which will form an integral portion of the inner surface of the face plate are first mated and then subjected to a compaction process wherein the mated parts are heated at a rate of about 10°C per minute to a temperature of from about 450°-460°C and held at this temperature for about 2 hours. This compaction process normalizes the shifting which would otherwise occur between the two components during subsequent heating and cooling steps encountered in the formation of the completed television tube. After the components are cooled, the grid or perforated mask is removed and marked for subsequent mating with the same glass face plate.

The face plate is then subjected to the separate application of the green, blue and red phosphors by known techniques and, in some instances, to the application of a carbon or graphite background surrounding the phosphors and providing a sharp contrast thereto. The phosphors are present as a multiplicity of individual dots in an ordered arrangement on the inner surface of the face plate. A resinous or plastic film may be applied to the surface of the phosphors and the inner surface of the face plate is subsequently aluminized, i.e. a thin aluminum film is deposited under vacuum, so that an electrically conductive surface is formed. This aluminized surface is connected to a metal stud on the inner surface of the face plate which stud, in turn, is connected by means of spring clips, which bridge the sealed surface of the face plate, to the electrically conducting inner surface of the funnel. Such inner surface is in turn connected to the anode button on the outer surface of the funnel and thus to the high voltage supply source of the television set.

After the aluminizing step is completed the grid or perforated mask is inserted in the face plate and mated thereto. At least about nine different organic compounds have usually been applied to the inner surface of the face plate at this point and these compounds must be subsequently baked onto the face plate or face panel. Various organic vapors are given off during the baking process which usually occurs at a temperature of from 400°-450°C. Since such organic vapors are deleterious to the PbO present in the sealing glass used to seal the face plate to the funnel, the baking step must be performed prior to any such sealing. If such vapors were permitted to contact the sealing glass during the sealing process they would reduce the PbO to metallic lead and cause a dielectric breakdown in the resultant seal. Such a tube is unacceptable for use and is rejected when it fails the voltage test to which it is submitted at the plant. To salvage the face plate and funnel of the rejected tube in order to use these components to make another tube, the sealing glass is partially etched and then the tube is opened by thermal cycling, the face plate and funnel are separated, the solder glass is cleared from each component, the deposited phosphors and other materials are removed from the face plate, and the two components are again processed. This procedure is both time consuming and costly to the television tube manufacturer. Since the high voltages present in a television tube during its operation in a television set are from 20K volts to 35K volts and higher, any dielectric breakdown in the seal between the funnel and face plate will result not only in a malfunction of the tube but will create a potential hazard for anyone coming in contact with the tube.

Thus, as described above, between the time the metal grid or perforated mask is mated to the face plate and the plate is subsequently sealed with a sealing or solder glass to the funnel, the face plate must undergo from about eight to about 12 separate processing operations including inspections, baking, cleaning of various components after various treatments, including further inspections, etching the edge of the face plate which is to be sealed to the funnel, etc. Elimination of any or all of the steps between the insertion of the mask in the face plate and the sealing of the face plate to the funnel would result in a saving of labor and time and would appreciably decrease the cost of manufacturing the completed color television tube. However, because of the formation of organic vapors during the baking steps to which the face plate must be subjected, it has not been possible for the television tube industry to simultaneously bake the face plate and seal the face plate to the funnel using a PbO-containing sealing glass, without reducing the PbO in the sealing glass to Pb metal.

Furthermore, the only binder material which has been successfully used commercially for PbO-containing sealing glasses, such as the PbO--B₂ O₃ --ZnO sealing glasses, has been a 1 to 1.4% solution of nitrocellulose in amyl acetate as the preferred solvent therefor. Other binders which have been tried in place of nitrocellulose do not prevent the reduction of the PbO in the sealing glass to Pb metal, during the sealing process. Thus, instead of a yellow seal being formed by the devitrified solder glass, a gray or gray-black seal is formed, indicating the presence of metallic lead. Nitrocellulose, however, has many disadvantages when used as a binder for the sealing glass. First, the paste containing such a binder is unstable and has a life of about 4 hours. This means that the color television tube manufacturer has to formulate the paste just prior to its application from a dispensing apparatus onto and about the peripheral sealing edge of the funnel. A batch of no more than about 20 lbs. is prepared and placed in the dispensing apparatus. Furthermore, careful control must be exercised in dispersing the ribbon or bead of sealing glass paste from the orifice of the dispensing apparatus onto and completely about the periphery of the funnel edge. The operator of the dispensing machine must continuously adjust the pressure at which the paste is being extruded in order to maintain the weight and the width of the ribbon substantially uniform. The ribbon width must be less than the width of the funnel edge, since too great a width results in too much of the paste being squeezed out from between the adjoining surfaces of the funnel and face plate during the sealing process. Too narrow a width results in insufficient paste being present to produce an effective and acceptable seal.

It has been noted that in many commercial applications of PbO-containing solder glass pastes having nitrocellulose as the binder, there is a tendency for the width of the extruded ribbon and the weight of the ribbon being extruded for a given length to vary appreciably and as early as the extrusion of the ribbon on the third funnel. This means that an operator must constantly be attending the dispensing apparatus and making the necessary adjustments.

A 20 lb. sealing glass batch is sufficient to seal approximately 100 television tubes having a 23 inch diagonal measurement, in approximately 2 hours or 175 18 inch tubes in about 3 hours. The dispensing apparatus must then be shut down, the tank for the sealing glass paste must be removed, the residual paste remaining, usually 120 to 300 grams, must be removed therefrom and discarded, the tank cleaned and a new 20 lb. paste batch which has been freshly formulated added thereto. The tank is then again connected to the dispensing apparatus, the air hoses connected, the tank sealed to prevent loss of amyl acetate which would volatilize at room temperature, the air pressure adjusted before the operator can again begin extruding the paste onto the peripheral edge of a television funnel. Use of 20 lb. batches and the continuous attention of an operator to the dispensing of the sealing glass ribbon, combined with the periodic shutting down of the equipment, formulation and addition of a new sealing glass batch, starting up and adjusting of the apparatus, and the like, is a costly procedure which is being followed today by almost all manufacturers of color television tubes, simply because they have been unable to dispense with the use of nitrocellulose as the binder for the sealing glass frit. The manufacturers have continued to live with the nitrocellulose limitations and disadvantages because it does eliminate the dielectric breakdown of the sealing glass caused by the reduction of PbO in that glass by the reducing conditions resulting from the use of other binders. Furthermore, such manufacturers have continued to separately bake out the face plate containing the phosphors prior to sealing the glass face plate to the glass funnel, since the organic vapors formed during the baking step would otherwise reduce the PbO of the sealing glass to Pb metal and cause a dielectric breakdown, resulting in a rejection of the tube.

It has now been discovered that if there is present in a PbO-containing sealing glass frit and the sealing glass paste made therefrom a sufficient amount of a powder of a higher oxide of a metal, which metal is ordinarily present in the sealing glass in its lower oxide form, such as PbO, BaO, or the like, and such higher oxide of the metal does not decompose at the temperatures to which the sealing glass is heated, softened and melted to seal the face plate to the funnel, any reducing agent in contact with such a sealing glass during the time the sealing glass is melting and sealing, reduces the higher oxide of the metal to the lower oxide rather than reduce in PbO in the sealing glass to Pb metal. It has further been discovered that Pb₃ O₄, when added to a PbO-containing sealing glass as a powder in an amount of from at least 0.1 to about 1.5% by weight of the sealing glass, but preferably from about 0.25 to 0.7% by weight, prevents the reduction of the PbO in the sealing glass to metallic Pb. The Pb₃ O₄ is reduced to PbO and the small amount of PbO produced does not affect the properties of the sealing glass.

Use of Pb₃ O₄ powder in the PbO-containing sealing glass will enable the manufacturer of color television tubes to avoid chemical degradation of the sealing glass resulting from exposure of the sealing glass to vapors generated from various organic constituents applied to the interior surface portions of the television tube and television tube components.

Furthermore, it has been discovered that the use of Pb₃ O₄ powder, in such small amounts, in the sealing glass and the paste made therewith, permits the use of a small amount of hydroxypropyl cellulose binder with the nitrocellulose binder. As will appear from the ensuing Examples, the presence of the former, even in small amounts of a 5 to 30 weight percent of a 4 percent hydroxypropyl cellulose solution admixed with a 1.2 percent nitrocellulose solution, results in a very stable sealing glass paste which can be made up in batches of several thousand pounds, has a shelf life of at least three months and longer. Moreover, the paste can be used continuously for hours on end in a dispenser therefor without having to adjust the dispensing apparatus, as is presently necessary when nitrocellulose is the sole binder for the glass frit. This results in considerable savings to the manufacturer in terms of labor, down time for the dispenser, formulation time for the paste, etc.

The following examples are merely representative and illustrative of my invention but are in no way to be considered as limiting the invention to the specific examples:

EXAMPLE 1

24 parts by weight of hydroxypropylcellulose, average molecular weight of 60,000, was poured slowly into 150 parts by weight of amylacetate which had previously been heated to 60°C., under continuous stirring. Another 150 parts by weight of amyl acetate were added to the solution and stirred well. 300 parts by weight of ethylene glycolmethyl ether was first heated to 60°C and slowly added to the solution; stirring continuously. A clear solution of 4% by weight hydroxypropyl cellulose was formed.

5 parts by weight of the 4% hydroxypropylcellulose solution thus formed was thoroughly mixed with 95 parts by weight of nitrocellulose dissolved in amylacetate (1.2% by weight of nitrocellulose in the solvent). The resulting binder solution was thoroughly mixed with 1170 parts by weight solder glass which contained 0.25% by weight Pb₃ O₄ powder, as obtained commercially. The solder glass had the following composition in percent by weight: PbO 75.5%, B₂ O₃ 8.5%, ZnO 12%, SiO₂ 2% and BaO 2%.

The solder glass paste which formed was still stable after 50 hours in a dispenser at room temperature. When dispersed as beads on TV funnels and fired at a temperature of about 430°C, the solder glass softened, then flowed and devitrified. The color of the seal was an orange-yellow, indicating that some Pb₃ O₄ still was present in the seal and had not been completely reduced to PbO. No significant variation in width of the extended ribbon was noted after the ribbon had been extruded for several hours onto television funnels.

The hydroxypropyl cellulose comprises 0.195 weight percent of the vehicle employed in this Example.

EXAMPLE 2

100 parts by weight of nitrocellulose solution in an amyl acetate solvent (1.2% by weight nitrocellulose) was mixed with 1170 parts by weight of the solder glass used in Example 1 to form a solder glass paste. The paste was stable for only about 4 hours and, as it was dispensed onto the funnel portion of television tubes, continuous adjustments of pressure had to be made to the dispensing apparatus in order to maintain the bead size substantially uniform in width. Furthermore, variations in the weight of the bead being extruded were encountered varying up to 30% or more of the weight of ribbon desired, and continual adjustments had to be made to the dispensing equipment to control the weight of the ribbon.

EXAMPLE 3

A paste was made up similar to that of Example 2 except that 1230 parts by weight of the solder glass was used. The batch was placed in a dispensing apparatus at the beginning of the extrusion, with a 5.2 psi pressure exerted on the batch, the extruded ribbon had a bead width of 0.213 inch and a weight per unit length of 80.1 gms. At the end of 1 hour, with the same pressure, the extruded bead width was 0.227 inch and the weight per unit length was 101.3 gms., an increase of 26%. At the end of the second hour, with the same pressure on the batch, the bead width had increased to 0.239 inch while the weight per unit length had increased to 117.0, or by 46%. At the end of the third hour the bead width had increased to 0.252 inch and the weight per unit length was now 123.6 gms, or a 54% increase. At the end of the fourth and last hour, the bead width was 0.254 inch and the weight per unit length was 131.9 gms., or a 65% increase. A 30% deviation in weight per unit length is the most that can be tolerated and when more paste is present than can be tolerated, the excess is squeezed out between the sealing faces of the tube and is wasted or, more importantly, can form unwanted stress points which are deleterious to the handling and operation of the tube. Thus, in order to maintain the extruded tube at a width of about 0.213 inch and a weight per unit length of about 80 grams, the operator of the dispenser must be alert to decrease the extrusion pressure periodically during the time the batch is being extruded.

EXAMPLE 4

To 100 parts by weight of the solder glass of Example 1 was mixed 1.5% by weight of Pb₃ O₄ powder and the resulting solder glass was mixed with 5% by weight hydroxypropyl cellulose having an average molecular weight of about 60,000 and which was dissolved in 95% by weight of equal parts ethylene glycol methylether and amylacetate. The resulting solder glass paste was stable; dispensing very well from the same dispensing apparatus as used in Example 3 without any adjustment being necessary to the extrusion pressure. The variation in the bead or ribbon being dispensed was about ± 0.008 inches. The dielectric strength, volt/0.001 inch or v/mil., of the fired sealing glass was 135% that of the sealing glass frit, per se. It is known that when nitrocellulose binder solution, per se, is used for the sealing glass, the dielectric strength of the fired sealing glass is from about 100 to 150 v/mil less than that of the sealing glass frit, per se.

The hydroxypropyl cellulose comprises 5 weight percent of the vehicle employed in this Example.

EXAMPLE 5

1.33% solution of hydroxypropylcellulose (avg. mol. weight of about 300,000) in equal parts by weight ethylene glycol methylether and amylacetate was mixed with the sealing glass of Example 1 and which contained 1% by weight Pb₃ O₄ powder. The ratio of solder glass + Pb₃ O₄, solids to binder solution, was 11.3:1. Good dispensing of the resulting paste was obtained together with good bead control. The dielectric strength of the seal produced by the solder glass paste was 25% above that of the glass powder, per se, 80% above that of the glass powder and the standard binder solution of Example 2 and 150% above that of a solder glass paste formed in accordance with this Example 5 but which did not contain Pb₃ O₄.

The hydroxypropyl cellulose comprises 1.33 weight percent of the vehicle employed in this Example.

EXAMPLE 6

A solder glass paste was formed by using 11.7 parts by weight solids, (the solder glass of Example 1 plus 0.3% by weight Pb₃ O₄) with 1 part by weight of a binder solution consisting of 90% nitrocellulose in amylacetate (1.2% nitrocellulose solution) and 10% of a 4% solution of hydroxypropylcellulose (average 60,000 molecular weight) in equal parts by weight of amylacetate and ethylene glycol methyl ether. After 6 days the paste was still stable. When dispensed as a ribbon thereafter, there was a change in bead width of -0.008 inch from the ribbon extruded at the beginning of the six-day period, using the same extrusion pressure. The weight change per unit length was only +3%.

The hydroxypropyl cellulose comprises 0.4 weight percent of the vehicle employed in this Example.

EXAMPLE 7

9 parts by weight of the solder glass of Example 1 containing 0.5% Pb₃ O₄ by weight was mixed with 1 part by weight of a binder solution consisting of 70% by weight nitrocellulose in solution, as disclosed in Example 6, and 30% by weight of the hydroxypropyl cellulose solution, also as disclosed in Example 6. After 24 hours, the paste was still stable and suitable for extrusion as a ribbon.

The hydroxypropyl cellulose comprises 1.2% weight percent of the vehicle employed in this Example.

EXAMPLE 8

A sealing glass paste in accordance with the invention was prepared by mixing 1170 parts by weight sealing glass of Example 1 and containing 0.25% Pb₃ O₄ with 100 parts by weight of a mixture of 90% nitrocellulose binder solution of Example 6 and 10% hydroxypropyl cellulose binder solution, also of Example 6. The paste was placed in the same dispensing apparatus as used in Example 3. A ribbon or bead was extruded at a pressure of 2.2 p.s.i. and the bead had a width of 0.255 inch and a weight per unit length of 78.4 grams. At the end of one hour, at the same extrusion pressure, the beam width was 0.267 inch and the weight was 80.4 grams per unit length, a 3% increase. At the end of the second hour, at the same extrusion pressure, the bead width was 0.283 inch and the weight was 83.4 grams per unit length, a 6% increase. At the end of the third hour, the bead width was 0.283 inch and the weight was 84.5 grams, or an 8% increase per unit length. At the end of the fourth hour, the bead width was 0.287 inch and the weight was 85 grams or a 9% increase per unit length. The extrusion pressure remained constant at 2.2 p.s.i. throughout the entire extrusion. From the foregoing, it is evident that the variations in bead width and weight per unit length are well within the tolerances established by the television tube industry. Thus, utilizing the sealing glass paste of the invention, the dispensing apparatus can be left unattended for long periods of time, with only an occasional spot check being necessary from time to time, as compared to the constant supervision necessary when utilizing the prior art solder glass paste, as shown in Example 3. Furthermore, the dispensing machines for the solder glass paste ribbons or beads of the invention can be connected to a central solder glass paste supply which continuously feeds the solder glass to the machine. Such dispensing machines can be used continuously for days on end, as compared to the present 20 lb. batch process being used by most commercial color television tube manufacturers today and the frequent down time on such machines which is necessary each time an additional 20 lb. batch of solder glass paste is formulated and used. It is to be understood that when reference is made to "weight per unit length", above, it is meant to define the length of the ribbon which is extruded completely about the peripheral sealing edge of the funnel portion of the television tube, without overlapping.

EXAMPLE 9

1230 parts by weight of a sealing glass frit containing 0.5% Pb₃ O₄ was mixed with the binder solution consisting of 95% nitrocellulose solution (1.2% nitrocellulose in amyl acetate) and 5% of a solution containing 4% hydroxypropyl cellulose in equal parts by weight ethylene glycol methyl ether and amyl acetate, to form a sealing glass paste. The sealing glass had the composition: PbO 75%, ZnO 12.6%, B₂ O₃ 8.3%, SiO₂ 2.1%, and BaO 2%, all by weight. The paste was extruded onto funnels for 18 inch television tubes, (18 inches being the diagonal measure of the tube face). A face plate having the mask, phosphor coatings, aluminized coating and the like was mated with each funnel so that the sealing edges of the face plate were in contact with the solder glass ribbon. The mated television parts were then placed in a furnace having no air flow and were heated at a rate of about 10°C. per minute up to a temperature of 450°C. and held there for one hour. The tubes were then allowed to cool at a rate of 7°C. per minute to room temperature. Not only had the face plates been sealed to the funnels of the tubes but each seal between the face plate and funnel had also been exposed to vapors generated from the volatile organic constituents within the interior confines of the face plates and funnels.

Each of the tubes was subjected to a frit breakdown test. A metal ring was placed in contact with the seal about the periphery of the juncture of the face plate and funnel and a 50 KV charge was applied to the anode button on the funnel. Any dielectric breakdown was immediately noted, as well as the area of the breakdown. None of the tubes produced any dielectric breakdown and no current flowed through the seals. However, television tubes sealed with the prior art solder glass and subjected to the same sealing and processing as described above in this Example, suffered from a dielectric breakdown since the PbO in the solder glass was reduced to Pb metal which conducts electricity through the seal.

The hydroxypropyl cellulose comprises 0.2 weight percent of the vehicle employed in this Example.

When reference is made to a PbD-containing solder glass for sealing TV tube face plates to funnels, the art will understand what is meant. Such solder glasses are available commercially. Many are of the PbO--B₂ O₃ -ZnO type and come within the following general ranges:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75-82                                                        ZnO                7-14                                                        B.sub.2 O.sub.3   6.5-12                                                       SiO.sub.2         1.5-3                                                        BaO               0-2                                                          ______________________________________                                    

Other metal oxides may also be present in amounts, usually less than 5% by weight, as long as such oxides are compatible with the glass and do not materially alter the basic characteristics of the glass or of the devitrified seal formed therefrom.

While nitrocellulose dissolved in amyl acetate is a well-known binder solution for sealing glasses, the amount of nitrocellulose in solution is usually about 1 to about 1.4%. Nitrocellulose binders can be used with the sealing glass frits of the invention containing Pb₃ O₄. However, the resulting pastes will be subject to a short shelf life unless from about 5% to about 30% of a 4% hydroxypropyl cellulose solution in a solvent therefor is present as a binder solution with the nitrocellulose or, preferably, is used as the sole binder solution for the sealing glass. While a 4% hydroxypropyl cellulose solution has been disclosed as a suitable binder solution other solution strengths of this binder may also be used.

The hydroxypropyl cellulose can vary from a molecular weight of about 40,000 to a weight of 300,000 or more. At much higher values, it becomes more difficult to utilize. Other known binders may also be utilized in the sealing glass paste of the invention as long as they perform the function of holding the solder glass frit in a ribbon form for a period of time sufficient to enable the mating pieces, i.e. the face plate and funnel to be joined and sealed. The amount of binder necessary for the paste is that amount which will maintain the solder glass frit in a wet form, extrudable as a bead or ribbon which holds its extruded shape for the necessary length of time, which binder is pyrolyzable upon being subjected to heat below the temperature at which the sealing glass frit is fired, and leaves only a minor amount of residue in the fired frit. About 0.3 to about 1.2% of the nitrocellulose remains in the fired frit, according to thermal gravitation analysis.

Of the solvents which can be used, amyl acetate is preferred because it volatilizes rapidly from the extruded ribbon and the ribbon can more quickly be fired to seal the adjoining glass surfaces. Ethylene glycol methyl ether is also suitable, either per se or in admixture with the amyl acetate. Ethylene glycol ethyl ether, methyl amyl acetate, ethyl hexyl acetate, n-butyl acetate, isobutyl acetate, sec. butyl acetate and diethylene glycol mono-butyl ether acetates are other examples of the many solvents for the binders which can be used.

While the amount of binder which is to be used is that amount which will perform the function of holding the sealing glass frit particles together as an extrudable paste, the amount of sealing glass solids, with the Pb₃ O₄ included, to binder solution is usually within the range of about 10:1 to about 12.8:1.

The Pb₃ O₄ is present in the range of about 0.1% to 1.5% although the preferred range is from about 0.25-0.7% with 0.5% giving consistently good results. When 1.5% and more is used, it may be necessary to adjust the solder glass composition to take into account the PbO formed by the reduction of the Pb₃ O₄ .

While Pb₃ O₄ is disclosed in each of the above examples, BaO₂ can be used in lieu thereof, as can other metal oxides having a higher oxygen content than the lower oxide of the corresponding metal found in the sealing glass or which can form a part of the devitrified sealing glass without materially affecting the basic characteristics of the devitrified sealing glass. BaO₂ can be reduced to BaO during the time the solder glass is within the firing temperature and is forming the devitrified seal. Reduction of the BaO₂ by the reducing atmosphere or by the organic vapors formed during the backing step of the face plate, prevents the simultaneous reduction of PbO to metallic lead and the resultant dielectric breakdown.

It is critical in one embodiment of this invention that the metal oxide having a high oxygen content such as Pb₃ O₄, be stable at the temperature range to which the sealing glass is fired and does not decompose withn the temperature range. This is necessary since the Pb₃ O₄ must be in the form at which it can be slowly reduced by the reducing atmosphere or the organic vapors, to PbO. If it were to decompose, it could not perform its intended function. Firing temperatures for PbO-containing solder glasses range from about 400°-460°C with most such glasses being fired at 425-455°C to produce the necessary glass flow and then the devitrified seal. Pb₃ O₄ is stable at temperatures up to 500°C.

While U.S. Pat. No. 3,370,966 granted Feb. 27, 1968 discloses the use of an oxidizing agent in a solder glass for forming a joint between two glass parts, the oxidizing agent must readily decompose to yield free oxygen which will burn out the several adulterants, such as lint, metal particles and the like, usually encountered during the fabrication process. These adulterants otherwise combine with any metallic lead resulting from decomposition of the lead-containing components of the frit. In the case of metallic particles becoming entrapped in the cement, such as aluminum, it will be oxidized to Al₂ O₃. It will be appreciated that the present invention is completely different from that of U.S. Pat. No. 3,370,966, since the Pb₃ O₄ must remain as such during the firing temperature to which the sealing glass paste is subjected.

The improvement in the dielectric strength attributable to the presence of Pb₃ O₄, per se, and in combination with a minor amount of hydroxypropyl cellulose is shown from the following data:

                           Avg.volts/mil                                           1.   Solder glass of Example 1                                                                              720                                               2.   Example 1 solder glass Binder A                                                                        580                                               3.   Example 1 solder glass + 0.25% Pb.sub.3 O.sub.4                                                        740                                                    + Binder A                                                                4.   Example 1 solder glass + 0.25% Pb.sub.3 O.sub.4                                                        780                                                    + Binder B                                                           

Binder A is the 1.2% solution of nitrocellulose in amylacetate.

Binder B is the 95% Binder A plus 5% of the 4% solution of hydroxylpropyl cellulose, avg. molecular weight of 60,000 in equal parts amyl acetate and ethylene glycol methyl ether. Thus, the hydroxypropyl cellulose comprises 0.2 weight percent of the vehicle.

Solder glass pastes of the invention have been made having a dielectric strength of up to twice that of the solder glass, per se.

In the foregoing Examples and experiments, the hydroxypropyl cellulose comprises from 0.195 to 1.2 weight percent of the vehicle when employed with nitrocellulose, and from 1.3 to 5 weight percent of the vehicle when employed as the only binder in the vehicle. More particularly, the vehicles in the foregoing Examples and experiments are comprised of the following ingredients expressed in weight percent:

    hydroxypropyl cellulose                                                                          0.195 - 1.2                                                  nitrocellulose    0.84 - 5.9                                                   amyl acetate      83.5 - 96.45                                                 ethylene glycol methyl ether                                                                      2.4 - 14.4                                                    and                                                                          hydroxypropyl cellulose                                                                          1.3 - 5                                                      amyl acetate      47.5 - 49.3                                                  ethylene glycol methyl ether                                                                     47.5 - 49.3                                             

While Pb₃ O₄ and BaO₂ are two of the most effective metal oxides, a second group of inorganic oxides found to substantially retard the chemical reduction of PbO in PbO-containing sealing glasses comprises metal oxides having thermal decomposition temperatures above about 400°C. Typical of the compounds within this second group are CrO₃ , MnO₂, Mn₂ O₃, Fe₂ O₃, Fe₃ O₄ , CuO, Cu₂ O, and Tl₂ O₃. Another group of oxides has been found which is less effective than the first and second groups, but nevertheless yields observable effects in retarding the chemical reduction of PbO. The oxides in this third group are characterized by compounds having a relatively high oxygen content (i.e., a greater number of oxygen atoms than the oxides of the first and second groups), or compounds having relatively high melting points (i.e., relative to the firing temperature of the sealing glass with which it is employed), or a combination of these factors. Typical of the oxides in the third group are Sb₂ O₅, TeO₂, Ta₂ O₅, Nb₂ O₅, V₂ O₅ and CeO₂ . Another compound within this third group is Bi₂ O₃. This compound is the least effective in the third group, but still produces some small, observable effects.

A fourth group of oxides which produces an observable effect is characterized by compounds having a thermal decomposition temperature of less than about 400°C. Within this fourth group is As₂ O₅. These compounds function according to a mechanism which differs from that previously described. The compounds in this fourth group decompose to yield free oxygen within the range of temperatures to which the sealing glass frit is subjected during firing.

In addition to the oxides, it has also been discovered that certain inorganic nitrates can substantially retard the chemical reduction of PbO in a PbO-containing sealing glass. The nitrates can be divided into three groups. The first group produces the most prominent effects, and is characterized by compounds having decomposition temperatures of about 30°-600°C, melting points of about 36°-264°C and water of hydration. Typical of the compounds within this group are Ca(NO₃)₂. 4H₂ O; Zn(NO₃)₂. 6H₂ O; La(NO₃)₃ . 6H₂ O; Bi(NO₃)₃ . 5H₂ O; Ce(NO₃)₃ . 6H₂ O; Ni(NO₃)₂ . 6H₂ O; and Cd(NO₃)₂. 4H₂ O. A second group of nitrates yields results comparable to the compounds of the first group of nitrates, but this second group is characterized by compounds having melting points lower than the firing temperature of the PbO-containing sealing glass, and thermal decomposition temperatures higher than the firing temperature of the PbO-containing sealing glass. Typical of the compounds within this second group are LiNO₃ and AgNO₃. A third group of nitrates, which is less effective than the first and second groups, yet produces observable effects is characterized by compounds having melting points of about 414°-592°C. Typical of the compounds within this group are CsNO₃, Pb(NO₃)₂ and Ba(NO₃)₂.

Still another group of inorganic nitrates has been found which is especially effective with sealing glass pastes containing a cellulosic binder. This group is characterized by nitrates which thermally decompose to yield HNO₃ at a temperature between about 150°C and the fiber softening point of the sealing glass. Typical of such compounds are Cu(HO₃)₂.3H₂ O and BiO(NO₃).H₂ O. Although the mechanism of operation is not fully understood, it is theorized that these compounds liberate HNO₃, which in turn reacts with the cellulosic binder resulting in the formation of a nitrocellulosetype binder, i.e. a cellulose binder having nitro-groups therein. It is known that nitrocellulose binders are not as problematical as, for example, a hydroxypropyl cellulose binder, in chemically reducing the PbO in a PbO-containing sealing glass.

Another group of inorganic compounds which is capable of substantially retarding the chemical reduction of PbO in PbO-containing sealing glasses comprises metal hydroxides which function in the same manner as the oxides. That is, this class of compounds includes hydroxides which are thermally stable at the temperatures to which the sealing glass is fired and do not thermally decompose within the firing temperature range, but which react when exposed to reducing conditions that exist during firing of the sealing glass. Typical of such hydroxides are LiOH; LiOH.H₂ O; Zr(OH)₄, ZrO₂.x H₂ O Ba(OH)₂ Ba(OH)₂.8H₂ O. In the case of the hydroxides, the water of hydration does not appear to have any significant effect. For example, substantially anhydrous lithium hydroxide and hydraded lithium hydroxide yield substantially the same visible effects.

A less effective group of inorganic hydroxides includes hydroxides which thermally decompose at a temperature below the temperature at which the sealing glass seals glass surfaces together. Typical of these compounds is Mg(OH)₂.

Still another group of inorganic compounds, which have been discovered to substantially retard the chemical reduction of PbO in PbO-containing sealing glasses, comprises certain metal carbonates. These carbonates can be characterized by compounds which yield carbon dioxide at temperatures above the firing temperature of the sealing glass. Typical of such compounds is MgCO₃ which gives very pronounced visible effects.

Another group of carbonates which is less effective than magnesium carbonate includes CdCO₃ and ZnCO₃. Compounds within this second group lose carbon dioxide within a temperature range of about 300°-500°C, and exhibit greater visible effects when employed with PbO-containing sealing glasses having relatively low firing temperatures, such as 400°C or lower.

Inorganic oxygen-containing chlorine compounds have also been discovered as suitable additives to a PbO-containing sealing glass frit. While any inorganic, oxygen-containing halogen compound can be employed in this invention, preferably the compound has a thermal decomposition temperature above the firing temperature of the sealing glass. The perchlorates are particularly preferred, especially KClO₄.

Still another group of inorganic additives found to be useful in this invention are the dichromates. More particularly, one can employ an effective amount of K₂ Cr₂ O₇. Generally, any dichromate having a decomposition temperature not more than about -100° or not more than about +100°C, relative to the firing temperature of the PbO-containing sealing glass, can be employed.

Another group of inorganic additives includes pyrosulfates, and peroxysulfates having a high oxygen content (e.g., about 7 to 8 oxygen atoms), preferably such compounds having a thermal decomposition temperature higher than about 300°C. K₂ S₂ O₇ and K₂ S₂ O₈ have been found to give positive effects.

Surprisingly, it has been discovered that P₂ O₅ does not function properly with a PbO-containing solder glass having a firing temperature above about 400°C. Since P₂ O₅ sublimates at about 300°C, this suggests that the use of materials which sublimate below the firing temperature of the solder glass should be avoided.

A series of tests on a PbO-containing sealing glass frit were conducted to determine the ability of several additives to retard the chemical reduction of the PbO constituent when the sealing glass frit was mixed with a vehicle to form a paste and subsequently fired. The additives are set forth in column 1 of Table I. Each of the additives was admixed with the sealing glass frit to produce test sample admixtures respectively containing 0.2%, 0.8%, 1.5% or 3% by weight of each of the additives admixed with separate fractions of the sealing glass frit. Each of the resultant samples was then mixed with a sufficient amount of a vehicle to form a paste. One test sample of each additive-sealing glass frit paste at the indicated additive concentrations was then fired at separate temperatures: 400° , 450° or 525°C. These temperatures ranges were selected because they cover the typical operating range of interest in the manufacture of color television picture tubes. Following is a summary of the procedure used in conducting the tests.

Microscope slides were prepared by depositing a typical cathode-ray tube sealing glass in paste form with and without the aforementioned additives. The sealing glass, also referred to herein as the "base glass", was a PbO-containing sealing glass having one of the following compositions expressed as oxide percentages by weight:

    Glass A                Glass B                                                 ______________________________________                                         PbO           75           84                                                  ZnO           12.6         2.7                                                 B.sub.2 O.sub.3                                                                              8.3          12.3                                                SiO.sub.2     2.1          0.4                                                 BaO           2            0.6                                                 ______________________________________                                    

These base glasses were sealing glass frits from which very coarse particles were removed by screening; substantially all of the particles were less than 200 mesh.

A sample of the base glass was applied to each slide using deionized water as a vehicle in order to establish a base line color after firing.

Another sample of the base glass containing 0.8 weight percent additive was applied to each slide to determine the effect of the additive on the base glass.

A sealing glass paste as preparted by mixing 92 parts by weight of base glass with 8 parts by weight of a vehicle. The vehicle comprised 96% by weight nitrocellulose solution (1.2% by weight nitrocellulose in amyl acetate) and 4% by weight of a solution comprising 1.32% by weight hydroxypropyl cellulose having a molecular weight of about 60,000 in Dowanol EM and amyl acetate.

Each of these pastes was prepared by stirring a small quantity of the base glass and appropriate vehicle on a glass plate.

Other pastes were prepared containing additives, base glass and the hydroxypropyl cellulose-nitrocellulose vehicle. The additives were intended to retard the chemical reduction of PbO. Each of these pastes was prepared by mixing a base glass and an additive in a small batch on a paint shaker. The resulting mixtures were then blended with the hydroxypropyl cellulose-nitrocellulose vehicle to form sealing glass pastes containing the additives at concentrations of 0.2%, 0.8%, 1.5% or 3% by weight.

Each of the pastes was transferred to a glass slide previously cleaned by wiping with acetone. A sample of each of the pastes was applied by depositing a drop of the paste of random size on the glass slide using a spatula. The paste was dried by heating in air at a temperature of about 120°F for about 3 hours.

Each glass slide was fired in order to seal the sealing glass to the glass slide. Three different firing cycles were employed by varying the peak temperature. The firing cycle involved heating the glass slide in air at 11°C per minute temperature increase to peak temperatures, holding at the peak temperature for 35 minutes, and cooling to room temperature at a rate of 6°C temperature decrease per minute. The peak temperature was 400° , 450° or 525°C.

The results of these tests appear in Table I. Recognizing that the objective of these tests is to determine the effect of various vehicles and additives on the chemical reduction of PbO, these tests can be interpreted by observing the color of each sample of a fired paste. The formation of free lead or the lower oxides of lead during firing is characterized by a gray or black color in the fired sample unless the additive is black or gray. Favorable results are obtained when any of the samples numbered 4, 5 and 6 in Table I are lighter in color or of a different color than the sample numbered 3 in the Table. The results in Table I are based on visual observations with the unaided eye. Spots and mottled appearance indicate mainly incomplete mixing. More uniform coloration would result from more uniform mixing of the frit and powder additive.

                                      TABLE I                                      __________________________________________________________________________                      No. 1 No. 2  No. 3 No. 4   No. 5   No. 6                                                                          Glass +                                     Solder                                                                                Glass  Glass                                                                               Glass + Glass + Binder +                           Solder                                                                             Firing                                                                              Solder Glass                                                                           +      +   Binder +                                                                               Binder +                                                                               1.5% (or                    Additive                                                                              Glass                                                                              Temp.-°C                                                                      Alone                                                                               0.8% addit.                                                                           Binder                                                                               0.2% addit.                                                                            0.8% addit.                                                                            3% additive                __________________________________________________________________________     CrO.sub.3                                                                              A   400  yellow                                                                               red    black best    good    some bubbles               CrO.sub.3                                                                              A   450  yellow                                                                               red    dark gray                                                                            best,   better than                                                                            better than                                                    good    No. 3   No. 3                                                          flow                                       CrO.sub.3                                                                              B   400  dark                                                                           brownish                                                                             orange black black but                                                                              green,con-                                                                             about same                                                     some    siderable                                                                              as No. 4                                                       effect  flow                               CrO.sub.3                                                                              B   450  black red    black black   green,con-                                                                             very dark                                                              siderable                                                                              brown                                                                  flow                               MnO.sub.2                                                                              A   400  yellow                                                                                --    black dark    black   black                                                          brown                                      MnO.sub.2                                                                              A   450  yellow                                                                               black  black black   light gray-                                                                            gray                                                                   best                               MnO.sub.2                                                                              B   400  gray-black                                                                             --   black light                                                                          gray    dark gray                                                                              black                      MnO.sub.2                                                                              B   450  gray  gray   black gray    = No. 1 black                      Mn.sub.2 O.sub.3                                                                       A   400  yellow                                                                               black  very  black   black   black                                                    dark                                                                           brown                                            Mn.sub.2 O.sub.3                                                                       A   450  yellow                                                                               black  very  gray-best                                                                              dark gray                                                                              very dark gray                                           dark                                                                           brown                                            Mn.sub.2 O.sub.3                                                                       B   400  very dark                                                                            black                black   jet black                                   gray         = No. 1                                                                              = No. 1                                    Mn.sub.2 O.sub.3                                                                       B   450  very dark                                                                            very dark                                                                             black lighter black   black                                       gray  gray         than No. 1                                                                     best                                       Tl.sub.2 O.sub.3                                                                       A   450  yellow                                                                               brown  gray  yellow- muddy beige                                                                            light gray                                                     brown                                                                          bottom;                                                                        top black                                  Tl.sub.2 O.sub.3                                                                       A   525   --    --    gray   --      --     yellow                     TeO.sub.2                                                                              A   400  yellow                                                                               yellow very dark                                                                            light   light brown                                                                            light brown                                              brown brown                                      TeO.sub.2                                                                              A   450  yellow                                                                               brown  gray  gray    gray    gray                       TeO.sub.2                                                                              A   525   --    --    gray   --      --     greenish tint                                                                  on gray; (3%                                                                   additive)                  Ta.sub.2 O.sub.5                                                                       A   400  yellow                                                                               yellow black brown   light brown                                                                            light brown                Ta.sub.2 O.sub.5                                                                       A   450  yellow                                                                               yellow-                                                                               gray  gray    gray    gray + faint                                      darker                       red spots                                         than No. 1                                              Nb.sub.2 O.sub.5                                                                       A   400  yellow                                                                               yellow dark  brown   brown   brown                                                    brown                                            Nb.sub.2 O.sub.5                                                                       A   450  yellow                                                                               orange gray  gray    gray    gray                       Nb.sub.2 O.sub.5                                                                       A   525   --    --    gray   --      --     (3% additive)                                                                  gray + faint                                                                   yellow spots               V.sub.2 O.sub.5                                                                        A   400  yellow                                                                               beige  dark  dark    dark    brown                                                    brown brown   brown                              V.sub.2 O.sub.5                                                                        A   450  yellow                                                                               yellow gray  gray    gray +  gray + faint                                                           faint yellow                                                                           yellow spots                                                           spots                              V.sub.2 O.sub.5                                                                        A   525   --    --     --    --      --     gray + yellow                                                                  spots (3% addit.)          Sb.sub.2 O.sub.5                                                                       A   400  yellow                                                                                --    dark  dark    dark brown                                                                             dark brown +                                             brown brown   + faint faint light                                                            light spots                                                                            spots                      Sb.sub.2 O.sub.5                                                                       A   450  yellow                                                                               brown  black black   black + black +  yellow                                                        yellow spots                                                                           spots                      Sb.sub.2 O.sub.5                                                                       B   450  black gray   black dark    dark gray                                                                              = No. 2                                                        gray                                       Sb.sub.2 O.sub.5                                                                       B   400  dark gray                                                                             --    black = No. 1 lighter lighter than                                                           than No. 1                                                                             No. 1                      As.sub.2 O.sub.5                                                                       A   400  yellow                                                                               yellow very  brown   beige-  light beige -                                            dark          white   white mottle                                             brown         mottle                             As.sub.2 O.sub.5                                                                       A   450  yellow                                                                               orange gray  gray +  brown + brown + gray                                                   brown   gray spots                                                                             spots                                                          spots                                      As.sub.2 O.sub.5                                                                       B   400  very dark                                                                            brown  brown black   very dark                                                                              gray                                        brown                      gray                               As.sub.2 O.sub.5                                                                       B   450  black brown  black dark    gray    gray                                                           gray                                       CeO.sub.2                                                                              A   450  yellow                                                                               yellow dark                                                                           gray  gray    gray    gray + red-                                                                    brown spots                                                                    (3% addit.)                CeO.sub.2                                                                              A   525   --    --    gray   --      --     gray-lighter                                                                   than No. 3                 Bi.sub.2 O.sub.3                                                                       A   450  yellow                                                                               yellow black gray    gray    gray                       Bi.sub.2 O.sub.3                                                                       A   400  yellow                                                                               yellow black brown   brown   brown                      Ca(NO.sub.3).sub.2.4H.sub.2 O                                                          A   400  yellow                                                                               yellow black dark gray                                                                              gray    yellow-silver                                                                  sheen                      Ca(NO.sub.3).sub.2.4H.sub.2 O                                                          A   450  yellow                                                                               orange gray  black-gray                                                                             yellow +                                                                               white + some                                                           some gray                                                                              orange                     Zn(NO.sub.3).sub.2.6H.sub.2 O                                                          A   400  yellow                                                                               yellow black gray    yellow  yellow, some                                                                   gelling, consi-                                                                derable flow               Zn(NO.sub.3).sub.2.6H.sub.2 O                                                          A   450  yellow                                                                               yellow-                                                                               dark  gray +  beige   beige, consi-                                     orange gray  beige           derable flow               La(NO.sub.3).sub.3.6H.sub.2 O                                                          A   400  yellow                                                                               light  black gray-   gray-   = No. 5 + some                                    yellow       brown + brown + gelling                                                        white   white and                                                              spots   yellow                                                                         spots                              La(NO.sub.3).sub.3.6H.sub.2 O                                                          A   450  yellow                                                                               yellow-                                                                               gray  white-  white-gray                                                                             white-orange                                      orange       gray-   orange  mottle                                                         orange  mottle                                                                 mottle                                     Bi(NO.sub.3).sub.3.5H.sub.2 O                                                          A   400  yellow                                                                               yellow black gray    yellow- yellow - best                                                          gray                               Bi(NO.sub.3).sub.3.5H.sub.2 O                                                          A   450  yellow                                                                               shiny  black gray-   shiny, con-                                                                            shiny                                                          shiny   siderable                                                                      flow                               Ce(NO.sub.3).sub.3.6H.sub.2 O                                                          A   400  yellow                                                                               yellow black yellow- yellow-gray                                                                            yellow-gray                                                    gray                                       Ce(NO.sub.3).sub.3.6H.sub.2 O                                                          A   450  yellow                                                                               orange gray  gray-   yellow  yellow                                                         yellow                                     Ni(NO.sub.3).sub.2.6H.sub.2 O                                                          A   400  yellow                                                                               yellow-                                                                               dark  beige   beige   beige,lumpy                                       brown  brown best                                       Ni(NO.sub.3).sub.2.6H.sub.2 O                                                          A   450  yellow                                                                               yellow-                                                                               black gray -  beige + same as No. 5                                     brown        brown   some black                                                mottled              spots and                                                                      bubbles                            Cd(NO.sub.3).sub.2.4H.sub.2 O                                                          A   400  yellow                                                                               brown  dark  gray-   white-  white-gray                                               brown brown   gray                               Cd(NO.sub.3).sub.2.4H.sub.2 O                                                          A   450  yellow                                                                               yellow-                                                                               black black-  gray-brown                                                                             gray-yellow-                                      gray         brown           brown, best                LiNO.sub.3                                                                             A   400  yellow                                                                               yellow black black-  gray-yellow                                                                            yellow-beige                                                   white   white                                                                  mottled                                    LiNO.sub.3                                                                             A   450  yellow                                                                               orange black gray-   light gray-                                                                            beige, lumpy                                                   white   shiny                                                                  mottled mottled                            LiNO.sub.3                                                                             B   400  black beige  black black-  black-  white + some gray,                                             white   white   best                                                           mottled mottled                            LiNO.sub.3                                                                             B   450  black yellow black black-  black-  beige + some                                                   yellow  yellow  black specks               AgNO.sub.3                                                                             B   400  brown brown +                                                                               black very dark                                                                              very dark                                                                              very dark brown                                   metallic     brown + brown + + whitening                                       sheen        whitening                                                                              whitening                          AgNO.sub.3                                                                             A   450  yellow                                                                               gray   gray  gray-   beige + = No. 5                                                        beige   gray and                                                                       brown spots                        AgNO.sub.3                                                                             A   400  yellow                                                                               dark   dark  black   brown, best                                                                            dark brown                                        brown  brown                                            CsNO.sub.3                                                                             A   400  yellow                                                                               yellow black brown   brown   brown                      CsNO.sub.3                                                                             A   450  yellow                                                                               yellow gray  gray-   dark brown                                                                             brown and                                                      brown           improving                  Pb(NO.sub.3).sub.2                                                                     A   400  yellow                                                                                --    yellow-                                                                              brown + light brown                                                                            brown-white                                              dark  white   gray                                                             brown spots                                      Pb(NO.sub.3).sub.2                                                                     A   450  yellow                                                                               shiny  black jet     gray-white                                                                             gray-white and                                                 black           improving                  Pb(NO.sub.3).sub.2                                                                     B   400  gray   --    black black+  gray + more                                                                            light gray +                                                   white   white spots                                                                            white spots                                                    spots                                      Pb(NO.sub.3).sub.2                                                                     B   450  black yellow black gray    black-white-                                                                           black-white-                                                           gray-mottled                                                                           gray-mottled               Ba(NO.sub.3).sub.2                                                                     A   400  yellow                                                                                --    brown brown   brown + brown + yellow                                                         yellow spots                                                                           spots                      Ba(NO.sub.3).sub.2                                                                     A   450  yellow                                                                               yellow black black + gray + yellow                                                                          gray + yellow                                                  yellow  spots   spots                                                          spots                                      Ba(NO.sub.3).sub.2                                                                     B   400  brown  --    black black   black + yellow                                                                         black + yellow                                                         spots   spots                      Ba(NO.sub.3).sub.2                                                                     B   450  black yellow black black   black-white                                                                            black-white                                                            mottled mottled                    Ba(NO.sub.3).sub.2                                                                     A   525   --    --    gray   --      --     yellow + gray                                                                  spots (3% addit.)          LiOH.H.sub.2 O                                                                         A   400  yellow                                                                               shiny- black-                                                                               light   light brown                                                                            light brown +                                     pink   brown brown + + yellow                                                                               yellow spots                                                   yellow  spots                                                                  spots                                      LiOH.H.sub.2 O                                                                         A   450  yellow                                                                               shiny- black brown   gray    gray + orange spots                               white                                                                          mottled                                                 Ba(OH).sub.2.8H.sub.2 O                                                                A   400  yellow                                                                               shiny  black gray    beige   beige                      Ba(0H.sub.2).sub.2.8H.sub.2 O                                                          A   450  yellow                                                                               shiny  gray  gray    beige-shiny                                                                            beige-shiny                MgCO.sub.3                                                                             A   400  yellow                                                                                --    black beige   beige-white                                                                            egg-shell white            MgCO.sub.3                                                                             A   450  yellow                                                                                --    slate pale    dark brown                                                                             dark brown                                               gray  brown                                      CdCO.sub.3                                                                             A   400  yellow                                                                               gray   black = No. 2 = No. 2 = No. 2                    CdCO.sub.3                                                                             A   450  yellow                                                                               black  black black   black   black                      ZnCO.sub.3                                                                             A   400  yellow                                                                               gray   black = No. 2 = No. 2 = No. 2                    ZnCO.sub.3                                                                             A   450  yellow                                                                               black  black black   black   black                      KCl0.sub.4                                                                             A   400   --    --     --    --     best     --                        KCl0.sub.4                                                                             A   450   --    --     --    --      --     best, gray + red                                                               and yellow spots           K.sub.2 Cr.sub.2 O.sub.7                                                               A   400   --    --     --    --      --     best                       K.sub.2 Cr.sub.2 O.sub.7                                                               A   450   --    --     --    --      --     best                       __________________________________________________________________________

In addition to the compounds set forth in Table I, the following additional results were observed. Cupric oxide gave very good results at concentrations of 0.2%, 0.8% and 1.5%. Cuprous oxide yields observable effects, but is less effective than cupric oxide. Ferric oxide gave excellent results even at concentrations as low as 0.2% with glass binder A. Ferrosoferric oxide (Fe₃ O₄) was less effective than ferric oxide, but nevertheless exhibited observable effects. Zr(OH)₄ and ZrO₂ . H₂ O were both effective at higher concentrations, such as the 3% additive level. At a concentration of 1.5%, the latter compound exhibited some orange and yellow coloration. Mg(OH)₂ exhibited some visible effects, but was not as effective as the other hydroxides tested.

Among the other nitrates tested, BiO(NO₃).H₂ O gave excellent results at concentrations of 0.2%, 0.8% and 1.5%. Fired samples containing this additive exhibited a white color. Cu(NO₃)₂. 3H₂ O yielded very good results at concentrations of 0.2%, 0.8% and 1.5% with sealing glass B. Potassium pyrosulfate gave very good results at 0.8% and1.5% additive concentrations when employed with either sealing glass A or sealing glass B and fired at 400° and 450°C. Potassium peroxydisulfate was somewhat less effective than the potassium pyrosulfate. Potassium peroxydisulfate-containing samples exhibited some white spots on a gray matrix.

Another compound tested was boric acid (H₃ BO₃) which yielded some favorable color effects. This compound is not, however, anong the best compounds for retarding the chemical reduction of PbO in a PbO-containing sealing glass.

It is to be noted that the effectiveness of the hydrated compounds is surprising to a person skilled in the art. It would be anticipated that compounds containing water of hydration would lead to the formation of bubbles in the fired sample of the sealing glass. It has been discoverd, on the other hand, that some of the hydrated additives are very effective in retarding the chemical reduction of PbO without resulting in the formation of bubbles in the fired sealing glass.

An examination of Table I indicates that the base glass A, which was applied to the glass slide using only deionized water as the vehicle, has a yellow color after firing. With glass B, on the other hand, a gray or black coloration is obtained even in the absence of a cellulosic binder. This is caused by the presence of more PbO in glass B than glass A and the reduction of this PbO to free lead. Thus, while there is no significant PbO-reduction in the base glass A in the absence of an organic, cellulose-containing vehicle, this is not the case with glass B. The problem of PbO-reduction in a frit comprised of glass B is even more serious. It will be apparent from Table I that some of the additives are even effective with a frit comprised of glass B. Use of glass B in the TV industry would be advantageous since it can be fired at a lower temperature because of the higher PbO-content.

When the glass contains a cellulosic binder, it is observed from Table I that some PbO-reduction occurs as evidenced by the black or gray color of the samples numbered 3. In some cases, the gray or black coloration is especially evident when the glass slide is viewed from its underside. As previously mentioned, when these samples are compared with samples numbered 4, 5 and 6, it is apparent that the additive has a positive effect on the retardation of the chemical reduction of PbO.

It will be apparent from the foregoing discussion that, in a broader context, this invention provides a PbO-containing sealing glass frit for sealing two glass surfaces together, wherein the PbO in the sealing glass is prevented from being reduced when the sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal the glass surfaces together, by incorporating in the sealing glass an amount of powder sufficient to prevent reduction of the PbO during sealing in the presence of the reducing conditions. The powder is selected from the group consistng of:

A. A hydroxide or higher oxide of a cation, said hydroxide and oxide being thermally stable at the temperatures at which the sealing glass frit seals the glass surfaces together; the hydroxide and oxide being capable of being chemically reduced when exposed to the reducing conditions;

B. An inorganic nitrate having a thermal decomposition temperature of about 30°-600°C, a melting point of about 36°-264°C and containing water of hydration;

C. An inorganic nitrate having a melting point lower than the firing temperature of the PbO-containing sealing glass and a thermal decomposition temperature higher than the firing temperature of the PbO-containing sealing glass;

D. An inorganic nitrate having a melting point of about 414°-592°C;

E. An inorganic nitrate which is thermally decomposable between about 150°C and the fiber softening point of the sealing glass to yield HNO₃ ;

F. An inorganic carbonate which is thermally decomposable to yield carbon dioxide above the temperatures at which the sealing glass frit seals the glass surfaces together;

G. An inorganic, oxygen-containing chlorine compound having a thermal decomposition temperature above the temperatures at which the sealing glass seals the surfaces together; and

H. An inorganic dichromate having a decomposition temperature of not more than about 100°C above to 100° C below the temperatures at which the sealing glass frit seals the glass surfaces together.

The powder and its products after firing are compatible with the fired sealing glass.

The powder is present in the frit in an amount sufficient to prevent chemical reduction of the PbO during sealing of the PbO sealing glass in the prsence of reducing conditions. Typically, the powder is present in the frit in an amount of about 0.1 - 3 weight percent, although an amount of about 0.2 - 1.5 weight percent is preferred. When the smaller proportions are employed, it may be unnecessary to adjust the solder glass composition to take into account the powder and products resulting therefrom after firing.

Additionally, this invention provides a sealing glass paste comprising a PbO-containing sealing glass frit, a binder for the frit and a solvent for the binder. The PbO in the sealing glass frit is prevented from being reduced when the sealing glass frit is being fired in the presence of reducing conditions at a temperature sufficient to seal the sealing glass frit. The sealing glass paste also has present with the sealing glass frit an amount of a powder sufficient to prevent reduction of the PbO during sealing of the sealing glass frit. The powder is selected from the group consisting of:

A. A hydroxide or a higher oxide of a cation which is thermally stable at the temperatures at which the sealing glass frit seals the glass surfaces together; the hydroxide and oxide are capable of being chemically reduced when exposed to the reducing conditions;

B. An inorganic oxide having a thermal decomposition temperature of less than about 400°C;

C. An inorganic nitrate having a thermal decomposition temperature of about 30°-600°C, a melting point of about 36°-264°C and containing water of hydration;

D. An inorganic nitrate having a melting point lower than the firing temperature of the PbO-containing sealing glass and a thermal decomposition temperature higher than the firing temperature of the PbO-containing sealing glass;

E. An inorganic nitrate which is thermally decomposable between about 150°C and the fiber softening point of the sealing glass to yield HNO₃ ;

F. An inorganic nitrate having a melting point of about 414°-592°C;

G. Potassium nitrate;

H. An inorganic carbonate which is thermally decomposable to yield carbon dioxide;

I. An inorganic, oxygen-containing chlorine compound;

J. An inorganic dichromate having a decomposition temperature of not more than about 100°C above to about 100°C below the temperatures at which the sealing glass frit seals the glass surfaces together;

K. H₃ BO₃ ;

L. An inorganic peroxysulfate or pyrosulfate; and

M. An inorganic hydroxide having a thermal decomposition temperature below the temperatures at which the sealing glass frit seals the glass surfaces together. Again, the powder and the products resulting therefrom after firing are compatible with the fired sealing glass. The aforementioned proportions are also applicable to this embodiment of the present invention.

The sealing glass paste of this invention can also contain an organic or inorganic acid in an amount sufficient to prevent gelling of the paste on aging. This can be accomplished by adding the acid in an amount sufficient to maintin an acid pH in the paste. Generally, only very small additions are required. A particularly preferred acid is citric acid. Citric acid additions of about 10-15 grams per 440 lbs. of sealing glass frit have been found effective in preventing gel formation. The use of such an acid is also advantageous in that it permits closer control of bead width and allows the use of more constant dispensing pressure when the sealing glass is applied to surfaces that are to be sealed together. Other acids, such as tartaric, phosphoric and sulfuric acids, can also be employed. Optimum amounts can be determined with a minimum of experimentation. 

We claim:
 1. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass frit is unreduced when said sealing glass frit is fired in the presence of reducing conditions and at temperatures at which said sealing glass frit seals said glass surfaces together, said improvement comprising incorporating in said sealing glass frit a sufficient amount of a powder of a higher oxide of a cation which is stable at the temperatures at which said sealing glass frit seals said glass surfaces together and which can be reduced to a lower oxide of the cation when exposed to said reducing conditions, said lower oxide of said cation being compatible with the fired sealing glass, said higher oxide of said cation being selected from the group consisting of Pb₃ O₄, BaO₂, MnO₂, Mn₂ O₃, Fe₃ O₄, CuO, Cu₂ O, Tl₂ O₃, TeO₂, Ta₂ O₅, Nb₂ O₅, V₂ O₅, CeO₂ and Bi₂ O₃.
 2. In a PbO-containing sealing glass frit as defined in claim 1, the improvement wherein said higher oxide of a cation is a higher oxide of a metallic cation.
 3. A PbO-containing sealing glass frit according to claim 1 having incorporated therein from about 0.1 to about 3% of said powder based upon the weight of said sealing glass frit.
 4. A sealing glass frit according to claim 1 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3                                                      ______________________________________                                    

and having incorporated therein from about 0.1 to about 3% of said powder based upon the weight of said sealing glass frit.
 5. A sealing glass frit as defined in claim 4, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 6. A sealing glass frit according to claim 1 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub. O.sub.3    8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.                                                           ______________________________________                                    


7. A sealing glass frit according to claim 1 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6.                                                         ______________________________________                                    


8. A sealing glass frit according to claim 1 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


9. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising incorporating in said sealing glass an amount of Pb₃ O₄ powder sufficient to prevent reduction of the PbO in said sealing glass during sealing in the presence of said reducing conditions.
 10. A PbO-containing sealing glass frit having incorporated therein from about 0.1 to 1.5% Pb₃ O₄ powder based upon the weight of said sealing glass frit.
 11. A sealing glass frit consisting essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3                                                      ______________________________________                                    

and having incorporated therein from about 0.1 to 1.5% Pb₃ O₄ powder based upon the weight of said sealing glass frit.
 12. A sealing glass frit as defined in claim 11, wherein said Pb₃ O₄ powder is present in an amount of from about 0.25 to 0.7% by weight of said sealing glass frit.
 13. A sealing glass frit as defined in claim 11, wherein said Pb₃ O₄ powder is present in an amount of about 0.5% by weight of said sealing glass frit.
 14. A sealing glass frit according to claim 9 consisting essentially of

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3                                                      ______________________________________                                    

and having incorporated therein from about 0.1 to about 3% of said powder based upon the weight of said sealing glass frit.
 15. A sealing glass frit as defined in claim 14, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 16. A sealing glass frit according to claim 9 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


17. A sealing glass frit according to claim 9 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6.                                                         ______________________________________                                    


18. A sealing glass frit according to claim 9 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


19. In a PbO-containing seaing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions and at temperatures from about 400°C at which said sealing glass frit seals said glass surfaces together, said improvement comprising incorporating in said sealing glass an amount of BaO₂ powder sufficient to prevent reduction of the PbO in said sealing glass during sealing in the presence of said reducing conditions.
 20. A sealing glass frit according to claim 19 in which said sealing glass consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


21. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of BaO₂ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 22. A sealing glass frit according to claim 21 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO                84                                                          ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6.                                                         ______________________________________                                    


23. A sealing glass frit according to claim 21 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


24. A sealing glass frit as defined in claim 21, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 25. A sealing glass frit as defined in claim 24, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 26. A sealing glass frit according to claim 21 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


27. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of MnO₂ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 28. A sealing glass frit according to claim 27 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


29. A sealing glass frit according to claim 27 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO                84                                                          ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


30. A PbO-containing sealing glass frit according to claim 27, wherein said powder is present in an amount from about 0.1 to about 3% by weight of said sealing glass frit.
 31. A sealing glass frit as defined in claim 30, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 32. A sealing glass frit according to claim 27 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


33. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of Mn₂ O₃ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 34. A sealing glass frit according to claim 33 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


35. A sealing glass frit according to claim 33 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO                84                                                          ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


36. A PbO-containing sealing glass frit according to claim 33, wherein said powder is present in an amount from about 0.1 to about 3% by weight of said sealing glass frit.
 37. A sealing glass frit as defined in claim 36, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 38. A sealing glass frit according to claim 33 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


39. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of Fe₃ O₄ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 40. A sealing glass frit according to claim 39 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


41. A sealing glass frit according to claim 39 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO                84                                                          ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


42. A sealing glass frit as defined in claim 39, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 43. A sealing glass frit as defined in claim 42, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 44. A sealing glass frit according to claim 39 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


45. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of CuO powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 46. A sealing glass frit according to claim 45 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


47. A sealing glass frit according to claim 45 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO                84                                                          ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


48. A sealing glass frit as defined in claim 45, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 49. A sealing glass frit as defined in claim 48, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 50. A sealing glass frit according to claim 45 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


51. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealng glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of Cu₂ O powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 52. A sealing glass frit according to claim 51 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


53. A sealing glass frit according to claim 51 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


54. A sealing glass frit as defined in claim 51, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 55. A sealing glass frit as defined in claim 54, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 56. A sealing glass frit according to claim 51 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


57. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of Tl₂ O₃ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 58. A sealing glass frit according to claim 57, consisting essentially of:

    CONSTITUENTS      PERCENTAGE OF WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


59. A sealing glass frit according to claim 57 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


60. A sealing glass frit as defined in claim 57, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 61. A sealing glass frit as defined in claim 60, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 62. A sealing glass frit according to claim 57 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


63. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of TeO₂ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 64. A sealing glass frit according to claim 63 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


65. A sealing glass frit according to claim 63 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT OF WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


66. A sealing glass frit as defined in claim 63, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 67. A sealing glass frit as defined in claim 66, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 68. A sealing glass frit according to claim 63 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


69. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO is said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit and amount of Ta₂ O₅ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 70. A sealing glass frit according to claim 69 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


71. A sealing glass frit according to claim 69 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


72. A sealing glass frit as defined in claim 69, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 73. A sealing glass frit as defined in claim 72, wherein said powder is present in an amount of from about 0.2 to 1.5% by weight of said sealing glass frit.
 74. A sealing glass frit according to claim 69, in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


75. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of Nb₂ O₅ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 76. A sealing glass frit according to claim 75 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


77. A sealing glass frit according to claim 75 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


78. A sealing glass frit as defined in claim 75, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 79. A sealing glass frit as defined in claim 78, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 80. A sealing glass frit according to claim 75 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


81. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of V₂ O₅ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 82. A sealing glass frit according to claim 81 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO                7 - 14                                                      B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


83. A sealing glass frit according to claim 81 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


84. A sealing glass frit as defined in claim 81, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 85. A sealing glass frit as defined in claim 84, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 86. A sealing glass frit according to claim 81 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


87. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of CeO₂ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 88. A sealing glass frit according to claim 87 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO               7 - 14                                                       B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


89. A sealing glass frit according to claim 87 in which said frit consists essentially of:

    CONSTITUENTS      PERCENT BY WEIGHT                                            ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


90. A sealing glass frit as defined in claim 87, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 91. A sealing glass frit as defined in claim 90, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 92. A sealing glass frit according to claim 87 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                    


93. In a PbO-containing sealing glass frit for sealing two glass surfaces together, the improvement wherein the PbO in said sealing glass is prevented from being reduced when said sealing glass is being fired in the presence of reducing conditions at a temperature sufficient to seal said glass surfaces together, said improvement comprising having intermixed with said sealing glass frit an amount of Bi₂ O₃ powder sufficient to prevent reduction of the PbO in said sealing glass frit during sealing in the presence of said reducing conditions.
 94. A sealing glass frit according to claim 93 consisting essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75 - 82                                                      ZnO               7 - 14                                                       B.sub.2 O.sub.3   6.5 - 12                                                     SiO.sub.2         1.5 - 3          .                                           ______________________________________                                    


95. A sealing glass frit according to claim 93 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               84                                                           ZnO               2.7                                                          B.sub.2 O.sub.3   12.3                                                         SiO.sub.2         0.4                                                          BaO               0.6              .                                           ______________________________________                                    


96. A sealing glass frit as defined in claim 93, wherein said powder is present in an amount of from about 0.1 to about 3% by weight of said sealing glass frit.
 97. A sealing glass frit as defined in claim 96, wherein said powder is present in an amount of from about 0.2 to about 1.5% by weight of said sealing glass frit.
 98. A sealing glass frit according to claim 93 in which said frit consists essentially of:

    CONSTITUENTS      PERCENTAGE BY WEIGHT                                         ______________________________________                                         PbO               75                                                           ZnO               12.6                                                         B.sub.2 O.sub.3   8.3                                                          SiO.sub.2         2.1                                                          BaO              
 2.               .                                           ______________________________________                                     